Apparatus and method for slurrying soda ash

Patent 4538921 Issued on September 3, 1985. Estimated Expiration Date:

November 25, 2003. Estimated Expiration Date is calculated based on simple USPTO term provisions. It does not account for terminal disclaimers, term adjustments, failure to pay maintenance fees, or other factors which might affect the term of a patent.

Abstract Claims Description Full Text

Patent References

2024830

2043710

3038785

3298669

3357801

3542342

3741533

3802848

3891393

Air-atomizing fuel nozzle Patent #: 3980233
Issued on: 09/14/1976
Inventor: Simmons , et al.

Inventor

Kennedy, David K.

Application

No. 06/555322 filed on 11/25/1983

US Classes:

366/178.3, Inner feeder passes through wall of outer feeder and extends along common axis at the wall239/112, With diverted system fluid or nonspraying fluid for cleaning239/424, Flow means of one fluid surrounds the other at outlet366/136, Recirculating from and to mixing chamber366/138WITH FLUSHING OF MIXING CHAMBER

Examiners

Primary: Jenkins, Robert W.

Attorney, Agent or Firm

International Class

B01F 5/04 (20060101)

Claims

What is claimed is:

1. In an improved nozzle for use in a soda ash slurrying system of the type in which soda ash particles are slurried with water or an aqueous sodium carbonate solution, andsaid slurry is thereafter injected into a slurry storage tank by means of said nozzle, said nozzle of the type which extends through an opening in said tank, said improvement comprising a nozzle which comprises a housing, having at least one liquidpassage and at least one soda ash particle passage therethrough, one opening of each of said liquid and soda ash particle passages for communication with the interior of a tank, and the other opening of said liquid passage for liquid communication with asource of water and/or an aqueous solution of sodium carbonate, and the other opening of said soda ash particle passage for communication with a source of soda particles, the interior openings of said liquid and soda ash particle passages beingpositioned such that water or aqueous soda ash solution, and soda ash particles exiting said interior openings contact forming a soda ash slurry, and said nozzle further comprising separating means for preventing said soda ash and said water or aqueoussodium carbonate solution from contacting before they exit the interior opening of said passages or at said opening.

2. An improved slurrying system according to claim 1 wherein separating means for preventing said water or aqueous sodium carbonate solution and said soda ash particles from contacting before they exit the interior openings of said passagescomprises a partitioning structure positioned between said openings.

3. An improved soda ash slurrying system according to claim 1 wherein said soda ash particle passage is positioned substantially along an axis of said nozzle.

4. An improved soda ash slurrying system according to claim 3 wherein said soda ash particle passage is positioned substantially cylindrically along the longitudinal axis of said nozzle.

5. An improved soda ash slurrying system according to claim 4 wherein at least the portion of said liquid passage which is immediately adjacent to the interior opening of said liquid passage is positioned along an axis of said nozzle.

6. An improved soda ash slurrying system according to claim 5 wherein said portion of said passage is positioned cylindrically along the longitudinal axis of said nozzle.

7. An improved soda ash slurrying system according to claim 1 wherein said soda ash particle passage and at least that portion of said liquid passage immediately adjacent to the interior opening of said passage are positioned along an axis ofsaid nozzle in substantially parallel alignment.

8. An improved soda ash slurrying system according to claim 7 wherein said soda ash particle passage and said portion of said liquid passage are cylindrical.

9. An improved soda ash slurrying system according to claim 8 wherein said portion of said liquid passage is positioned concentrically about said soda ash particle passage.

10. An improved slurrying system according to claim 9 wherein said separating means for preventing contact between said water or aqueous sodium carbonate and said soda ash particles before they exit the interior openings of said interioropenings comprises an annular flange positioned between said concentrically positioned liquid and soda ash particle passages.

11. An improved slurrying system according to claim 10 wherein said portion of said liquid passage and said soda ash particle passage are adjacent.

12. An improved slurrying system according to claim 11 wherein said portion of said concentrically positioned liquid passage and said soda ash particle passage are separated by a partitioning annular hollow cylindrical body, the interior surfaceof said body forming the outer wall of said soda ash particle passage and the outer surface of said body forming the inner wall of said portion of said liquid passage.

13. An improved slurrying system according to claim 11 wherein said separating means comprises a projection of said annular hollow cylindrical body into said tank beyond the interior openings of said liquid and soda ash particle passages.

14. In an improved nozzle for use in a soda ash slurrying system of the type in which soda ash particles are slurried with water or an aqueous sodium carbonate solution, and said slurry is thereafter injected into a slurry storage tank by meansof said nozzle, said nozzle of the type which extends through an opening in said tank, said improvement comprising a nozzle which comprises a housing, having at least one liquid passage and at least one soda ash particle passage therethrough, one openingof each of said liquid and soda ash particle passages for communication with the interior of a tank, and the other opening of said liquid passage for liquid communication with a source of water and/or an aqueous solution of sodium carbonate, and theother opening of said soda ash particle passage for communication with a source of said particles, the interior openings of said liquid and soda ash particle passages being positioned substantially along an axis of said nozzle in concentric relation suchthat water or aqueous soda ash solution and soda ash particles exiting said interior openings contact, forming a soda ash slurry, and said nozzle further comprising separating means for preventing said soda ash and said water or aqueous sodium carbonatesolution from contacting before they exit the interior opening of said passages or at said openings, said separating means comprising a partitioning structure positioned between said openings and projecting from said openings exterior of said nozzle.